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org.apache.hive.service.cli.Column Maven / Gradle / Ivy
/**
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.hive.service.cli;
import java.nio.ByteBuffer;
import java.util.AbstractList;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.BitSet;
import java.util.List;
import com.google.common.primitives.Booleans;
import com.google.common.primitives.Bytes;
import com.google.common.primitives.Doubles;
import com.google.common.primitives.Ints;
import com.google.common.primitives.Longs;
import com.google.common.primitives.Shorts;
import org.apache.hive.service.cli.thrift.TBinaryColumn;
import org.apache.hive.service.cli.thrift.TBoolColumn;
import org.apache.hive.service.cli.thrift.TByteColumn;
import org.apache.hive.service.cli.thrift.TColumn;
import org.apache.hive.service.cli.thrift.TDoubleColumn;
import org.apache.hive.service.cli.thrift.TI16Column;
import org.apache.hive.service.cli.thrift.TI32Column;
import org.apache.hive.service.cli.thrift.TI64Column;
import org.apache.hive.service.cli.thrift.TStringColumn;
/**
* Column.
*/
public class Column extends AbstractList {
private static final int DEFAULT_SIZE = 100;
private final Type type;
private BitSet nulls;
private int size;
private boolean[] boolVars;
private byte[] byteVars;
private short[] shortVars;
private int[] intVars;
private long[] longVars;
private double[] doubleVars;
private List stringVars;
private List binaryVars;
public Column(Type type, BitSet nulls, Object values) {
this.type = type;
this.nulls = nulls;
if (type == Type.BOOLEAN_TYPE) {
boolVars = (boolean[]) values;
size = boolVars.length;
} else if (type == Type.TINYINT_TYPE) {
byteVars = (byte[]) values;
size = byteVars.length;
} else if (type == Type.SMALLINT_TYPE) {
shortVars = (short[]) values;
size = shortVars.length;
} else if (type == Type.INT_TYPE) {
intVars = (int[]) values;
size = intVars.length;
} else if (type == Type.BIGINT_TYPE) {
longVars = (long[]) values;
size = longVars.length;
} else if (type == Type.DOUBLE_TYPE) {
doubleVars = (double[]) values;
size = doubleVars.length;
} else if (type == Type.BINARY_TYPE) {
binaryVars = (List) values;
size = binaryVars.size();
} else if (type == Type.STRING_TYPE) {
stringVars = (List) values;
size = stringVars.size();
} else {
throw new IllegalStateException("invalid union object");
}
}
public Column(Type type) {
nulls = new BitSet();
switch (type) {
case BOOLEAN_TYPE:
boolVars = new boolean[DEFAULT_SIZE];
break;
case TINYINT_TYPE:
byteVars = new byte[DEFAULT_SIZE];
break;
case SMALLINT_TYPE:
shortVars = new short[DEFAULT_SIZE];
break;
case INT_TYPE:
intVars = new int[DEFAULT_SIZE];
break;
case BIGINT_TYPE:
longVars = new long[DEFAULT_SIZE];
break;
case FLOAT_TYPE:
case DOUBLE_TYPE:
type = Type.DOUBLE_TYPE;
doubleVars = new double[DEFAULT_SIZE];
break;
case BINARY_TYPE:
binaryVars = new ArrayList();
break;
default:
type = Type.STRING_TYPE;
stringVars = new ArrayList();
}
this.type = type;
}
public Column(TColumn colValues) {
if (colValues.isSetBoolVal()) {
type = Type.BOOLEAN_TYPE;
nulls = toBitset(colValues.getBoolVal().getNulls());
boolVars = Booleans.toArray(colValues.getBoolVal().getValues());
size = boolVars.length;
} else if (colValues.isSetByteVal()) {
type = Type.TINYINT_TYPE;
nulls = toBitset(colValues.getByteVal().getNulls());
byteVars = Bytes.toArray(colValues.getByteVal().getValues());
size = byteVars.length;
} else if (colValues.isSetI16Val()) {
type = Type.SMALLINT_TYPE;
nulls = toBitset(colValues.getI16Val().getNulls());
shortVars = Shorts.toArray(colValues.getI16Val().getValues());
size = shortVars.length;
} else if (colValues.isSetI32Val()) {
type = Type.INT_TYPE;
nulls = toBitset(colValues.getI32Val().getNulls());
intVars = Ints.toArray(colValues.getI32Val().getValues());
size = intVars.length;
} else if (colValues.isSetI64Val()) {
type = Type.BIGINT_TYPE;
nulls = toBitset(colValues.getI64Val().getNulls());
longVars = Longs.toArray(colValues.getI64Val().getValues());
size = longVars.length;
} else if (colValues.isSetDoubleVal()) {
type = Type.DOUBLE_TYPE;
nulls = toBitset(colValues.getDoubleVal().getNulls());
doubleVars = Doubles.toArray(colValues.getDoubleVal().getValues());
size = doubleVars.length;
} else if (colValues.isSetBinaryVal()) {
type = Type.BINARY_TYPE;
nulls = toBitset(colValues.getBinaryVal().getNulls());
binaryVars = colValues.getBinaryVal().getValues();
size = binaryVars.size();
} else if (colValues.isSetStringVal()) {
type = Type.STRING_TYPE;
nulls = toBitset(colValues.getStringVal().getNulls());
stringVars = colValues.getStringVal().getValues();
size = stringVars.size();
} else {
throw new IllegalStateException("invalid union object");
}
}
public Column extractSubset(int start, int end) {
BitSet subNulls = nulls.get(start, end);
if (type == Type.BOOLEAN_TYPE) {
Column subset = new Column(type, subNulls, Arrays.copyOfRange(boolVars, start, end));
boolVars = Arrays.copyOfRange(boolVars, end, size);
nulls = nulls.get(start, size);
size = boolVars.length;
return subset;
}
if (type == Type.TINYINT_TYPE) {
Column subset = new Column(type, subNulls, Arrays.copyOfRange(byteVars, start, end));
byteVars = Arrays.copyOfRange(byteVars, end, size);
nulls = nulls.get(start, size);
size = byteVars.length;
return subset;
}
if (type == Type.SMALLINT_TYPE) {
Column subset = new Column(type, subNulls, Arrays.copyOfRange(shortVars, start, end));
shortVars = Arrays.copyOfRange(shortVars, end, size);
nulls = nulls.get(start, size);
size = shortVars.length;
return subset;
}
if (type == Type.INT_TYPE) {
Column subset = new Column(type, subNulls, Arrays.copyOfRange(intVars, start, end));
intVars = Arrays.copyOfRange(intVars, end, size);
nulls = nulls.get(start, size);
size = intVars.length;
return subset;
}
if (type == Type.BIGINT_TYPE) {
Column subset = new Column(type, subNulls, Arrays.copyOfRange(longVars, start, end));
longVars = Arrays.copyOfRange(longVars, end, size);
nulls = nulls.get(start, size);
size = longVars.length;
return subset;
}
if (type == Type.DOUBLE_TYPE) {
Column subset = new Column(type, subNulls, Arrays.copyOfRange(doubleVars, start, end));
doubleVars = Arrays.copyOfRange(doubleVars, end, size);
nulls = nulls.get(start, size);
size = doubleVars.length;
return subset;
}
if (type == Type.BINARY_TYPE) {
Column subset = new Column(type, subNulls, binaryVars.subList(start, end));
binaryVars = binaryVars.subList(end, binaryVars.size());
nulls = nulls.get(start, size);
size = binaryVars.size();
return subset;
}
if (type == Type.STRING_TYPE) {
Column subset = new Column(type, subNulls, stringVars.subList(start, end));
stringVars = stringVars.subList(end, stringVars.size());
nulls = nulls.get(start, size);
size = stringVars.size();
return subset;
}
throw new IllegalStateException("invalid union object");
}
private static final byte[] MASKS = new byte[] {
0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, (byte)0x80
};
private static BitSet toBitset(byte[] nulls) {
BitSet bitset = new BitSet();
int bits = nulls.length * 8;
for (int i = 0; i < bits; i++) {
bitset.set(i, (nulls[i / 8] & MASKS[i % 8]) != 0);
}
return bitset;
}
private static byte[] toBinary(BitSet bitset) {
byte[] nulls = new byte[1 + (bitset.length() / 8)];
for (int i = 0; i < bitset.length(); i++) {
nulls[i / 8] |= bitset.get(i) ? MASKS[i % 8] : 0;
}
return nulls;
}
public Type getType() {
return type;
}
@Override
public Object get(int index) {
if (nulls.get(index)) {
return null;
}
switch (type) {
case BOOLEAN_TYPE:
return boolVars[index];
case TINYINT_TYPE:
return byteVars[index];
case SMALLINT_TYPE:
return shortVars[index];
case INT_TYPE:
return intVars[index];
case BIGINT_TYPE:
return longVars[index];
case DOUBLE_TYPE:
return doubleVars[index];
case STRING_TYPE:
return stringVars.get(index);
case BINARY_TYPE:
return binaryVars.get(index).array();
}
return null;
}
@Override
public int size() {
return size;
}
public TColumn toTColumn() {
TColumn value = new TColumn();
ByteBuffer nullMasks = ByteBuffer.wrap(toBinary(nulls));
switch (type) {
case BOOLEAN_TYPE:
value.setBoolVal(new TBoolColumn(Booleans.asList(Arrays.copyOfRange(boolVars, 0, size)), nullMasks));
break;
case TINYINT_TYPE:
value.setByteVal(new TByteColumn(Bytes.asList(Arrays.copyOfRange(byteVars, 0, size)), nullMasks));
break;
case SMALLINT_TYPE:
value.setI16Val(new TI16Column(Shorts.asList(Arrays.copyOfRange(shortVars, 0, size)), nullMasks));
break;
case INT_TYPE:
value.setI32Val(new TI32Column(Ints.asList(Arrays.copyOfRange(intVars, 0, size)), nullMasks));
break;
case BIGINT_TYPE:
value.setI64Val(new TI64Column(Longs.asList(Arrays.copyOfRange(longVars, 0, size)), nullMasks));
break;
case DOUBLE_TYPE:
value.setDoubleVal(new TDoubleColumn(Doubles.asList(Arrays.copyOfRange(doubleVars, 0, size)), nullMasks));
break;
case STRING_TYPE:
value.setStringVal(new TStringColumn(stringVars, nullMasks));
break;
case BINARY_TYPE:
value.setBinaryVal(new TBinaryColumn(binaryVars, nullMasks));
break;
}
return value;
}
private static final ByteBuffer EMPTY_BINARY = ByteBuffer.allocate(0);
private static final String EMPTY_STRING = "";
public void addValue(Type type, Object field) {
switch (type) {
case BOOLEAN_TYPE:
nulls.set(size, field == null);
boolVars()[size] = field == null ? true : (Boolean)field;
break;
case TINYINT_TYPE:
nulls.set(size, field == null);
byteVars()[size] = field == null ? 0 : (Byte) field;
break;
case SMALLINT_TYPE:
nulls.set(size, field == null);
shortVars()[size] = field == null ? 0 : (Short)field;
break;
case INT_TYPE:
nulls.set(size, field == null);
intVars()[size] = field == null ? 0 : (Integer)field;
break;
case BIGINT_TYPE:
nulls.set(size, field == null);
longVars()[size] = field == null ? 0 : (Long)field;
break;
case FLOAT_TYPE:
nulls.set(size, field == null);
doubleVars()[size] = field == null ? 0 : new Double(field.toString());
break;
case DOUBLE_TYPE:
nulls.set(size, field == null);
doubleVars()[size] = field == null ? 0 : (Double)field;
break;
case BINARY_TYPE:
nulls.set(binaryVars.size(), field == null);
binaryVars.add(field == null ? EMPTY_BINARY : ByteBuffer.wrap((byte[])field));
break;
default:
nulls.set(stringVars.size(), field == null);
stringVars.add(field == null ? EMPTY_STRING : String.valueOf(field));
break;
}
size++;
}
private boolean[] boolVars() {
if (boolVars.length == size) {
boolean[] newVars = new boolean[size << 1];
System.arraycopy(boolVars, 0, newVars, 0, size);
return boolVars = newVars;
}
return boolVars;
}
private byte[] byteVars() {
if (byteVars.length == size) {
byte[] newVars = new byte[size << 1];
System.arraycopy(byteVars, 0, newVars, 0, size);
return byteVars = newVars;
}
return byteVars;
}
private short[] shortVars() {
if (shortVars.length == size) {
short[] newVars = new short[size << 1];
System.arraycopy(shortVars, 0, newVars, 0, size);
return shortVars = newVars;
}
return shortVars;
}
private int[] intVars() {
if (intVars.length == size) {
int[] newVars = new int[size << 1];
System.arraycopy(intVars, 0, newVars, 0, size);
return intVars = newVars;
}
return intVars;
}
private long[] longVars() {
if (longVars.length == size) {
long[] newVars = new long[size << 1];
System.arraycopy(longVars, 0, newVars, 0, size);
return longVars = newVars;
}
return longVars;
}
private double[] doubleVars() {
if (doubleVars.length == size) {
double[] newVars = new double[size << 1];
System.arraycopy(doubleVars, 0, newVars, 0, size);
return doubleVars = newVars;
}
return doubleVars;
}
}